Depending on whether the two liquids are immiscible, the denser liquid should sink two the bottom and form two distinct layers - the bottom being the liquid with a density of 1.1 g/cm3 and the top being water (density 1 g/cm3) If they are miscible, the two liquids may mix and form a single phase solution
The heavier liquid will sink to the bottom. The water will "float"on top of the test liquid.
This is the same if you mix syrup, water and dish soap. The syrup is more dense so it sinks and the dish soap is lighter so it floats on top.
The density of water is equal to 1g/ml (or 1g/cc). Based on the natures of high and low density mixtures (relative low density floats and high density sinks) the two liquids will mix equally and neither will 'float' or 'sink' relative to the other.
Since the liquids don't mix, you will have two layers. One will be pure water and the other will be pure test liquid. Water's density is about 1 g/ml, so it is slightly less dense than the test liquid. Because of this, the more dense test liquid will sink to the bottom of the cup. You end up with a layer of water above a layer of test liquid. If the test liquid had a density that was less than 1 g/ml, then the water would be the bottom layer and the test liquid would be the top.
The density would not be "1.1 gram" but something like "1.1 gram per milliliter". If you mix that with water (density 1.0 gram per milliliter), assuming there are no chemical reactions, you would get a mixture with a density between 1.0 and 1.1. The exact density would depend on how much of each liquid you mix.
It would depend upon the chemical composition of the liquid being added to water.
Since the density of water is one, then the liquid would mix with water since the densities are equal.
assuming that their natures are such that they don't mix and that there is no chemical reaction between the two substances what would happen
the test liquid will form a band in the middle of the cup
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.
They form individual layers depending on their densities...the liquids with lighter density floats on liquid with heavier density......
The pressure will get higher quicker than in water because there is a different density between the liquids, and because there is a higher density, the liquid will be heavier and would push on you more than the smaller density of water. if you would submerge deep in that liquid, you will explode at a lower distance from the surface than in water.
If density = mass/volume, and your volume increases while mass remains the same... Then the denominator increases which would decrease the density
depends on the density of the liquid
In a mixture of different liquids, the one with the lowest density will float to the top.
in relation to solids or liquids in liquids: Density. A lighter density compound/liquid will float in a heavier density liquid
The liquid of higher density will settle to the bottom.
The liquids density equals to 1.18617021ml/g.
denser liquids tend to have more viscosity
Density of any liquid can be determined by weighing exact volume of liquid and dividing weight observed by the volume of liquid taken.
Density is always present in liquids (and in all matter), you can calculate it by dividing the liquid's mass by it's volume.
Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.Density of liquid A, relative to liquid B = density of liquid A/density of liquid B. The temperatures and pressures for both liquids must be specified.Often the reference liquid (liquid B) is pure water at one atmosphere and room temperature (20 deg C). In that case, the ratio is also known as specific gravity.
If you place the object into the liquid it will sink.
after you let several liquids (each with a different density) sit in a container for a while, the greater the density, the farther down the liquid is in a container
This is found out by knowing the densities of the liquids in question. The liquid with the smaller density will always be on top, while the liquid with the higher density will be at the bottom.
Mass = Volume x Density